A magnetoresistive (MR) read head is disclosed including an MR sensor having a free layer and a pinned layer. A multi-layer hard bias layer stabilizes the free layer of the MR sensor. A product of the moment (Ms) and the thickness (t) of a lower layer of the hard bias layer is greater than a product of the moment (Ms) and the thickness (t) of the free layer of the MR sensor.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A magnetoresistive (MR) read head, comprising: an MR sensor including a free layer; and a multi-layer hard bias layer positioned adjacent the MR sensor for stabilizing the free layer of the MR sensor, the multi-layer hard bias layer including a lower layer, a seed layer formed above the lower layer, and an upper layer formed on the seed layer; wherein a product of the moment (Ms) and the thickness (t) of the lower layer of the hard bias layer is greater than a product of the moment (Ms) and the thickness (t) of the free layer of the MR sensor.
2. The MR read head as recited in claim 1 , wherein the lower layer of the hard bias layer forms an abutted junction with a track edge of the MR sensor.
3. The MR read head as recited in claim 1 , wherein the hard bias layer includes an upper layer constructed with Cr.
4. The MR read head as recited in claim 3 , wherein the hard bias layer includes a seed layer constructed with a Cr alloy.
5. The MR read head as recited in claim 1 , wherein the lower layer of the hard bias layer is electrically conductive.
6. The MR read head as recited in claim 1 , wherein the product of the magnetic moment (Ms) and the thickness (t) of the hard bias layer is at least six times greater than the product of the moment (Ms) and the thickness (t) of the free layer of the MR sensor.
7. The MR read head as recited in claim 6 , wherein the product of the magnetic moment (Ms) and the thickness (t) of the hard bias layer is at least eight times greater than the product of the moment (Ms) and the thickness (t) of the free layer.
8. The MR read head as recited in claim 1 , wherein the MR read head is a lead overlay read head.
9. The MR read head as recited in claim 1 , wherein the MR sensor is an anti-parallel pinned sensor.
10. The MR read head as recited in claim 1 , wherein the hard bias layer reduces noise associated with use of the MR sensor.
11. A disk drive system, comprising: a magnetic recording disk; a magnetoresistive (MR) read head as recited in claim 1 ; an actuator for moving the MR read head across the magnetic recording disk so the MR read head may access different regions of magnetically recorded data on the magnetic recording disk; and a controller electrically coupled to the MR read head for detecting changes in resistance of the MR read head.
12. A magnetoresistive (MR) read head comprising: an MR sensor including a free layer and a pinned layer; a multi-layer hard bias layer positioned adjacent the MR sensor for stabilizing the free layer of the MR sensor; and a pair of lead layers operatively coupled to the MR sensor; wherein a product of the moment (Ms) and the thickness (t) of a lower layer of the hard bias layer is greater than a product of the moment (Ms) and the thickness (t) of the free layer of the MR sensor, wherein the multi-layer hard bias layer includes a seed layer formed above the lower layer, and an upper layer formed on the seed layer.
13. The MR read head as recited in claim 12 , wherein the seed layer has a body centric cubic crystallographic structure being magnetically coupled to the upper layer of the hard bias layer.
14. The MR read head as recited in claim 12 , wherein the lower layer, seed layer, and upper layer of the hard bias structure are ferromagnetically coupled to each other.
15. A magnetoresistive (MR) read head, comprising: a lower shield layer; a lower gap layer located above the lower shield layer; an MR sensor located above the lower gap layer, the MR sensor having a free layer; a hard bias lower layer located above the lower gap layer, wherein a product of a moment (Ms) and a thickness (t) of the hard bias lower layer is greater than a product of a moment (Ms) and a thickness (t) of the free layer of the MR sensor; a seed layer formed above the hard bias layer lower layer; a hard bias upper layer formed on the seed layer; a pair of lead layers operatively coupled to the MR sensor; an upper gap layer located above the MR sensor; and an upper shield layer located above the upper gap layer.
16. The MR read head as recited in claim 15 , wherein the seed layer has a body centric cubic crystallographic structure being magnetically coupled to the hard bias upper layer.
17. A disk drive system, comprising: a magnetic recording disk; a magnetoresistive (MR) read head as recited in claim 15 ; an actuator for moving the MR read head across the magnetic recording disk so the MR read head may access different regions of magnetically recorded data on the magnetic recording disk; and a controller electrically coupled to the MR read head for detecting changes in resistance of the MR read head.
18. A method for fabricating a magnetoresistive (MR) read head, comprising: forming an MR sensor having a free layer and a pinned layer; and depositing a multi-layer hard bias layer for stabilizing the free layer of the MR sensor; wherein a product of the moment (Ms) and the thickness (t) of a lower layer of the hard bias layer is greater than a product of the moment (Ms) and the thickness (t) of the free layer of the MR sensor wherein the multi-layer hard bias layer includes a seed layer formed above the lower layer, and an upper layer formed on the seed layer.
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May 24, 2005
June 20, 2006
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